Facet temperature distribution of a room temperature continuous-wave operating quantum cascade laser

被引:4
|
作者
Hu, Yongzheng [1 ]
Wang, Lijun [1 ]
Zhang, Jinchuan [1 ]
Li, Lu [1 ]
Liu, Junqi [1 ]
Liu, Fengqi [1 ]
Wang, Zhanguo [1 ]
机构
[1] Chinese Acad Sci, Inst Semicond, Key Lab Semicond Mat Sci, Beijing 100083, Peoples R China
来源
JOURNAL OF PHYSICS D-APPLIED PHYSICS | 2012年 / 45卷 / 32期
关键词
PERFORMANCE;
D O I
10.1088/0022-3727/45/32/325103
中图分类号
O59 [应用物理学];
学科分类号
摘要
The facet temperature distribution of a room temperature continuous-wave (CW) operating quantum cascade laser was experimentally measured based on the micro-Raman intensity ratio analysis of the Stokes and anti-Stokes phonon lines. A 'W'-shaped temperature distribution was observed in the active region. We found that the traditional thermal simulation using the Fourier law is not sufficient in explaining our experimental results and other simulation models need to be explored. The active region temperatures at different CW operating currents were also measured. Our work is useful for device failure analysis and optimization of thermal management.
引用
收藏
页数:5
相关论文
共 50 条
  • [31] 1.6 W high wall plug efficiency, continuous-wave room temperature quantum cascade laser emitting at 4.6 μm
    Lyakh, A.
    Pfluegl, C.
    Diehl, L.
    Wang, Q. J.
    Capasso, Federico
    Wang, X. J.
    Fan, J. Y.
    Tanbun-Ek, T.
    Maulini, R.
    Tsekoun, A.
    Go, R.
    Patel, C. Kumar N.
    [J]. APPLIED PHYSICS LETTERS, 2008, 92 (11)
  • [32] 3 W Continuous-Wave Room Temperature Quantum Cascade Laser Grown by Metal-Organic Chemical Vapor Deposition
    Fei, Teng
    Zhai, Shenqiang
    Zhang, Jinchuan
    Lu, Quanyong
    Zhuo, Ning
    Liu, Junqi
    Wang, Lijun
    Liu, Shuman
    Jia, Zhiwei
    Li, Kun
    Sun, Yongqiang
    Guo, Kai
    Liu, Fengqi
    [J]. PHOTONICS, 2023, 10 (01)
  • [33] Real-time measurements of atmospheric CO using a continuous-wave room temperature quantum cascade laser based spectrometer
    Li, Jingsong
    Parchatka, Uwe
    Koenigstedt, Rainer
    Fischer, Horst
    [J]. OPTICS EXPRESS, 2012, 20 (07): : 7590 - 7601
  • [34] Extremely temperature-insensitive continuous-wave quantum cascade lasers
    Fujita, Kazuue
    Yamanishi, Masamichi
    Furuta, Shinichi
    Sugiyama, Atsushi
    Edamura, Tadataka
    [J]. APPLIED PHYSICS LETTERS, 2012, 101 (18)
  • [35] Extremely temperature insensitive, continuous-wave broadband quantum cascade lasers
    Fujita, Kazuue
    Yamanishi, Masamichi
    Furuta, Shinichi
    Dougakiuchi, Tatsuo
    Sugiyama, Atsushi
    Edamura, Tadataka
    [J]. NOVEL IN-PLANE SEMICONDUCTOR LASERS XII, 2013, 8640
  • [36] Room-temperature continuous-wave quantum cascade lasers grown by MOCVD without lateral regrowth
    Liu, Zhijun
    Wasserman, Daniel
    Howard, Scott S.
    Hoffman, Anthony J.
    Gmachl, Claire F.
    Wang, Xiaojun
    Tanbun-Ek, Tawee
    Cheng, Liwei
    Choa, Fow-Sen
    [J]. IEEE PHOTONICS TECHNOLOGY LETTERS, 2006, 18 (9-12) : 1347 - 1349
  • [37] Interband Cascade Lasers with High Continuous-Wave Output Powers at Room Temperature
    Merritt, C. D.
    Bewley, W. W.
    Canedy, C. L.
    Kim, M.
    Kim, C. S.
    Abell, J.
    Vurgaftman, I.
    Meyer, J. R.
    [J]. LASER TECHNOLOGY FOR DEFENSE AND SECURITY IX, 2013, 8733
  • [38] A room-temperature continuous-wave operating midinfrared light emitting device
    Weik, Fritz
    Steinmeyer, Guenter
    Tomm, Jens W.
    Glatthaar, Regine
    Vetter, Uwe
    Nurnus, Joachim
    Lambrecht, Armin
    [J]. JOURNAL OF APPLIED PHYSICS, 2006, 99 (11)
  • [39] A room temperature continuous-wave nanolaser using colloidal quantum wells
    Yang, Zhili
    Pelton, Matthew
    Fedin, Igor
    Talapin, Dmitri V.
    Waks, Edo
    [J]. NATURE COMMUNICATIONS, 2017, 8
  • [40] A room temperature continuous-wave nanolaser using colloidal quantum wells
    Zhili Yang
    Matthew Pelton
    Igor Fedin
    Dmitri V. Talapin
    Edo Waks
    [J]. Nature Communications, 8
12345